Toy&#39;s

ABSTRACT

A manual toy of navigation of oval and round shape rings. 
     The procedure of navigation is performed by a navigator of maneuvering rotation of toy handle. 
     Oval or round shape rings will rotate around a sealed designed shape hoop Connected to handle of toy. 
     In a skillful operated manner of navigation of a navigator using skill tactics of navigating movements. 
     A child will and can experience a wonderful movement of rhythm in multiple positions and angles. 
     Transition of child navigation system to an adult navigation system of health building exercise unit for aerobic. 
     A human body health building ability of navigation is rotation tactics of maneuvering of oval or round shape rings. 
     An adult human body will experience building of oxygen rhythm muscles and bicep muscles. 
     From maneuvering rotation tactics of navigation unit system.

BACKGROUND

Toy development was done at Mott Community College FABLAB located inFlint, Mich. The transformation of wood and cardboard box and coloredpapers glue and plastic lamination, was the formulation of creation oftoy. A duplication of toy was done in high density polyethylene andcolored adhesive plastic, process in Warren, Mich. A survey was done ontoy. The review outcome was grade A+. The Super Hoop Loops BalancingRhythm Navigation Navigator Toy was evaluated by a Toy and Game Brokerthe outcome of evaluation was it is a very colorful fun toy for kids andfamily member. A second evaluation was done by Toy and Game Broker agentoutcome of evaluation was it is a great toy and competitive for the toyand game market and recommend for the Wham'O toy company.

SUMMARY

The present disclosure is directed to the super hoop loops balancingrhythm navigation navigator toy. This is a family toy of age group of4-to-7 and 8-to-Adult for enjoyment of building body strength. In aenjoyable way of fun.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 A manual navigation unit system. Used for navigating movementmaneuvering of oval or round shape rings.

FIG. 1A A pyramid open face shape triangle hoop. Where rings travelabout in a diameter of multiple spiral direction.

FIG. 1B A round shape ring. Where different items of rotation rhythmmovement are carried.

FIG. 1C A parallel curve cylinder end handle. Held to activate movementnavigation of rings about hoop.

FIG. 1D A multitude in quantity and variety in seize of large medium andsmall round rings. Used for visual display of navigation maneuveringmovement of toy.

FIG. 2 A manual navigation unit system. Used for navigating movementmaneuvering of oval shape rings.

FIG. 2A A oval open face shape hoop. Where rings travel about in adiameter of multiple spiral direction.

FIG. 2B A round shape ring. For carrying different items of rotationrhythm movement.

FIG. 2C A parallel curve cylinder end handle. Held to activate movementnavigation of rings about hoop.

FIG. 2D A multitude in quantity and variety in seize of larger mediumand small oval shape ring. Used for visual display of navigationmaneuvering movement of toy.

FIG. 3 A manual navigation unit system. Used for navigating movementmaneuvering of round shape rings.

FIG. 3A A cube wave open face shape hoop. Where rings travel about in adiameter of multiple spiral direction.

FIG. 3B A round shape ring. Where different items of rotation rhythmmovement are carried.

FIG. 3C A parallel curve cylinder end handle. Held to activate movementnavigation of rings about hoop.

FIG. 3D A multitude in quantity and variety in seize of larger mediumand small round shape rings. Used for visual display of navigationmaneuvering movement of toy.

FIG. 4 A manual navigation unit system. Used for navigating movementmaneuvering of round shape rings.

FIG. 4A A round open face shape hoop. Where rings travel about in adiameter of multiple spiral direction.

FIG. 4B A round shape ring. For carrying different items of rotationrhythm movement.

FIG. 4C A parallel curve cylinder end handle. Held to activate movementnavigation of rings about hoop.

FIG. 4D A multitude in quantity and variety in seize of larger mediumand small round shape rings. Used for visual display of navigationmaneuvering movement of toy.

DETAILED DESCRIPTION OF THE INVENTION

The material present here indicate figures of balancing rhythm in amanner of skill ability, of navigation of rotation capability.

A two in one toy.

A toy for children of all ages.

This is a toy that will teach children of all ages rhythm and how to usethe rhythm they have been taught.

This is a learning rhythm toy for children of all age groups.

A child will be taught skillful tactics and body movement.

This is a very durable safety proof toy for children of all ages.

How to Play with the Super Hoop Loops Balancing Rhythm NavigationNavigator Toy.

Instruction on Activating Loop Rings and Holding Hoop Handle.

-   Step 1. Start by picking up super hoop handle with two hands.-   Step 2. Then bend your back in a downward position.-   Step 3. Stay focus on small loop rings.-   Step 4. Make small loop rings move by rotating handle back and forth    in a circular motion, until you see full rhythm motion of all loop    rings.-   Step 5. Gravitate handle and loop rings to the center by moving    hands and arms upward.-   Step 6. Then you can gravitate handle and loop rings to a higher    position upward.-   Step 7. Gravitate handle and loop rings back to center position.-   Step 8. Then you can use singular circular movement right and    singular circle movement left with handle.-   Step 9. Then you can go side to side in a double circular movement    with handle and loop rings.-   Step 10. You can turn the super hoop handle vertical letting all    loop rings go to bottom of the hoop, circular movement can be done    to the left or right.-   Step 11. A diagonal position can be done with handle using one or    two hands to the left or right of the hoop.

To achieve activation of loop rings gravitate using circular motiondiagonal upward or diagonal downward.

There are 28 loop rings motion movements: 1 full tilt loops, 2 half tiltloops, 3 quadruple Spiral, 4 reverse loops, 5 gear shift single loops, 6vertical loops, 7 inward spiral loops, 8 outer spiral loops, 9 inwardsingle loops, 10 outer single loops, 11 double center loops, 12 doublespiral loops center, 13 double left loops, 14 double right loops, 15double spiral loops left, 16 double spiral right, 17 single spiralloops, 18 triple spiral loops, 19 quintuple-5spiral loops 20 rainbowcolor loops, 21 two tone color loops, 22 triple tone color loops, 23 oneloop ring, 24 two loop rings, 25 three loop rings, 26 up and downspiral-swirl loops, 27 shift gear double loops, 28 diagonal loops.

There are 15 holding hoop handle positions: 1 down, 2 upward, 3 centerwide, 4 center left, 5 center right, 6 diagonal right or left-up, 7diagonal right or left-down, 8 single dip, 9 double dip, 10 straight upand down, 11 side to side, 12 horizontal right or left, 13 full tilt, 14half tilt, 15 vertical left or right.

The first step improvement of invention would be to change hoop shape.

Into a variety of shapes as in sea animal shapes, zoo animal shapes,farm animal shapes, insect shapes, historical shape creatures, fruitshapes, ice cream and cone shape, cupcake shape, human body part shapes,animal body part shapes, sport active shapes, traveling machine shapes,and geometric shapes.

The second step improvement of invention would be a geometric shapechange in loop rings.

The third step improvement of invention would be to change handle to adiffer geometric shape style of holding.

The fourth step improvement of invention would be to remove handle andjust use large hoop.

The fifth step improvement of invention would be to make it light up andglow.

The sixth step improvement of invention would be to make it trace thewall with a variety of color lights.

The seventh step improvement of invention would be to make it trace thewall with a variety of shapes and symbols as in animal shapes, fruitshapes, car shapes, airplane shapes symbols.

The eighth step improvement of invention would be to make it have avariety of soft noises as in a soft bell sound or a soft rattler soundor a soft whistler sound.

The ninth step improvement of invention would be an all-purpose toy ofchildren age growth ability condition development.

The tenth step improvement of invention would be an all-purpose toyability growth condition development of all age group people expansionadjustment act of toy.

The eleventh step improvement of invention would be a hoop outer safetybar guard to block away hands from loop rings.

The twelfth step improvement of invention would be inside hoop guard barfor safety of blocking away loops rings from hands.

The thirteenth step improvement of invention would be variety of softmaterial textures change of loop rings.

The fourteenth step improvement of invention would be to put a varietyof rotation items of rhythm movement inside of hoop section as in roundloop rings, oval loop rings. A ball or balls inside of a clear plasticball. A special water and ball or balls inside a clear plastic ball.

A fan and ball inside a clear plastic ball. A coil round spring solidcolors or rainbow colors inside a clear plastic ball. A spiral maze withball or balls inside of a flat shape clear plastic.

A spiral tunnel maze with ball or balls inside a clear plastic ball.

Define ball or balls one large, two medium, three small, multipleminiature balls.

The fifteenth step improvement of invention would be to put a lenticularpicture inside of hoop section as in animals, fruits, cars, airplanes,geometric design shape picture.

The sixteenth step improvement of invention would be a transition intoexercise unit system of aerobic for health building of a human body.

What is claimed is:
 1. Set of four individual toy handles of rotationmaneuvering, with four two in one shape hoops of rotation rhythmmovement carrier, Individual sealed connection to toy handle, A pyramidopen face shape triangle figure hoop, A oval open face figure shapehoop, A cube wave open face figure shape hoop, A round open face figureshape hoop, For the carrying rotation of oval and round shape looprings, Performed by a navigator of navigation.